KX3 leadtimes shortening

The KX3 image on the Elecraft site

The Elecraft website now shows "New Order Lead Time: 60 days" for the KX3 10W transceiver. At one time this was around 120 days, so they are working hard to get products out more quickly now that any initial teething troubles have been addressed. www.eham.net still shows a satisfaction rating of 5 from 25 reviews, which is excellent.  A 2 month lead-time would put delivery around the end of October when DX on HF is likely to be at its best for many years.  I have to admit that I'm very tempted, but it is a lot of money.

The second 472kHz transverter (with MeSquares)

Partially built 472kHz transverter using MeSquare islands

This afternoon I started the build of my second 472kHz 10W transverter to confirm repeatability of the design. This time I'm using MeSquares from www.qrpme.com as islands to aid construction. The build is about 75% complete so I thought I'd take a photo to show the technique before the board gets too crowded. With some care the results can be almost as neat as a PCB.

MySquares and MyPads arrive

My order from www.qrpme.com arrived today by airmail from the USA. The PCB stick-down island pads look just the job and my plan is to build a second sample of my 472/500kHz transverter using these on a piece of copper laminate. There is no doubt that these pads will be a big improvement on my own rough-cut homebrew pads. I especially like the islands for SO8,  DIL8 and DIL14 ICs as fixing these with Manhattan construction has always been a real pain.

LF/MF Loop antennas on transmit

For the last few winters I've used a wire loop antenna on 136 and 500kHz transmit with moderately successful results. Well, considering the extremely low ERP it is better to say excellent results. My wire is not that thick: around 1mm PVC covered multistrand wire and the loop area around 80m square, with the lower part of the wire either very close to, or actually on, the ground.  Using the TX loop calculator at http://www.66pacific.com/calculators/small_tx_loop_calc.aspx the efficiency is around -30dB at 500kHz, so that 5W from the PA would result in around 5mW ERP radiated. My calculations and measurements, with less than ideal loop geometry, suggest the ERP is some 3dB lower at around 2-3mW. At 137kHz the loop is considerably less efficient at around -50dB.

For a small plot with nearby trees I am not sure how well this compares with a small Marconi with a short vertical section (around 6m max) and a horizontal section of around 6m. Anyone know the answer?

Another country on 472-479kHz

Lubos OK2BVG reports that he has been granted access to the new 630m MF band and is already working stations.  Gradually more countries are gaining access although I doubt UK amateurs will be allowed access to the band before January 2013.

A few years ago I was extremely excited when Lubos managed to copy my 2mW ERP 500kHz WSPR beacon at over 1000km for the first time. Since then the beacon has reached Finland at almost 1800km. 

It is good to hear that several German stations are now active in the new band with conventional CW QSOs being quite common.

RX performance comparisons (and the KX3)

http://www.sherweng.com/table.html

Sherwood carry out comprehensive tests on various amateur products. See the full list in the link above to get an idea how good the Elecraft KX3 is. Sometimes ultimate performance is unimportant but it does indicate which products are the very good ones when it matters .

Simple 28MHz Polyakov Mixer WSPR RX

As the first part of my WSPR transceiver project for 28MHz, I breadboarded a Polyakov harmonic mixer based, crystal controlled, direct conversion receiver this afternoon. It was a great success!

28MHz Polyakov mixer based WSPR RX

The circuit shows the idea implemented. A low cost GQRP club 14.060MHz crystal is pulled to 14.0623MHz in the oscillator/buffer stage. This is then injected into the back to back diode "Polyakov" harmonic mixer which switches at 2x injection frequency i.e. 28.1246MHz, the WSPR USB dial frequency. The 28MHz input from the antenna is filtered and directly applied (no RF amp) to the diode harmonic mixer with the audio output amplified and filtered in the 2 stages of audio gain. The output then goes to the PC sound card. I may improve the audio filtering and add a 600ohm line transformer between the audio output and the PC mic or line input.

Minimum discernable signal (MDS) is around -124dBm, possibly a shade better. AM rejection was tested by injecting a 100% AM modulated carrier at 28MHz. An input of -53dBm was needed before the AM signal was detected, so 70dB AM rejection, which I think is very good.

More bench work to do, then I'll try looking for 10m WSPR signals on-air with the RX, but for about an hour of work, a very fine result. Once the RX is air-test proven, the TX part will be added to make a complete WSPR transceiver.

Autumn project list

My wife often calls me a "fireside fusilier" as I am always gunner (going to) do this or gunner do that.

Well here is my current projects ideas list, some of which I hope to address in the coming weeks and months. How many will be replaced with other ideas first?

1. Finish the 472kHz transverter and write this up.
2. Simple 28MHz QRP WSPR transceiver to use with a netbook.
3. Stand alone 137kHz receiver (for use with PC).
4. Semi-permanent E-field probe antenna and on-line 137kHz/472kHz grabbers
5. More non line-of-sight light beam experiments (get better distances).
6. Semi-permanent 481THz QRSS beacon for NLOS light beam tests.
7. Alternative HF antennas - maybe re-erect my Par Electronics 40/20/10 end-fed.
8. Further earth-mode (ground conduction) experiments - tests at around 30 and 73kHz as well as more tests at VLF aiming to improve best though ground DX (currently 6km with 5W).
9. Experiment with horizontal loop antenna on TX at VLF (maximising coupling into ground).
10. Build some better LF/MF test gear such as resistive SWR bridge, 50W dummy load and a noise bridge.

I'll give you all a progress update in about 6 weeks time!

PC based LF/MF receivers

There are some very neat ideas for simple LF receivers around that make use of programs like Spectran or Argo effectively as the second IF and detector stages.

DK7FC's simple 137kHz receiver

DK7FC recently posted his schematic for his 137kHz receiver which used a 4MHz crystal divided down to 125kHz using a 4060 IC with the IF at 12kHz (corresponding to 137kHz) being fed straight into the PC software. With programs like Argo the scale can be offset so that the correct frequency is displayed. Of course, there needs to be some front end filtering to remove the image, in this case at 113kHz. Using this approach one can make a very simple "stand alone" LF receiver for 137kHz weak signal reception. Such an approach is ideal for grabbers which are permanently connected to a PC anyway, uploading the received signals to the internet.

Baofeng UV-3R very inexpensive VHF/UHF handheld

You may or may not have seen the adverts on eBay for the Baofeng UV-3R handheld transceiver. These are available in several colour versions (including the yellow version shown here) for prices between £25-40 including shipping. For example Solidradio of Hong Kong have these available for just £29.90. Reports suggest these are not bad rigs at all.

What I've just noticed is that, the same supplier shows there is a 3 year UK SquareTrade (no matter what) warranty available for £8.49. So, for less than £40 you can buy a dual band VHF/UHF handheld with a decent warranty for 3 full years.  I've heard of some deals, but this takes some beating.